With regard to the 'phage MS I am afraid I am not well enough acquainted with the intimacies of the reaction to judge
whether or not the application of your method of analysis is justified. However, I am quite sure that I do not agree entirely
with your conclusions, especially insofar as these are based on your pneumococcus calculations.

To go back to these: while Dr. Morris certainly established her point, her measurements would seem to me inapplicable to any
rigid kinetic study of the Pn-anti-Pn reaction. In the first place the Pn and antibody had to be mixed, and it was not until
after this was done (and probably most of the reaction was over) that mixtures were chilled and allowed to stand quietly.
Even at 0 degrees, how will you evaluate the portion of the reaction taking place during mixing and the portion taking place
after mixing? From the very crude velocity measurements Kabat and I published some years ago this would easily introduce
an error sufficiently large to invalidate any calculations or conclusions. At every measurement and at each dilution you
introduce a similar uncertainty, so that whether or not your calculations agree with any formula would carry little weight.
They might also differ by 10^4 from your 'phage result and still be due to the same mechanism. I think, for the same
reason, that you know nothing of the temperature coefficient of the Pn-anti-Pn reaction. Therefore, if your conclusion regarding
diffusion is the correct one, much better and more rigid evidence is needed to establish it.

In my lack of personal experience with the 'phage system I cannot help feeling that similar considerations apply. My
only specific criticisms, however, would be to certain statements on pg. 19 of your MS. For instance, if you obtain no evidence
of your study of the heterogeneity of pneumococcus anticarbohydrate, that should be another danger sign to you, for heterogeneity
of antibody has been amply demonstrated and confirmed in many systems. If anti-'phage is an exception the burden of proof
is on you.

Moreover, while carboxyl groups may play a part in Pn type-specificity and condition certain initial ionic interactions, not
all Ph type-substances contain appreciable - COOH and many other equally reactive specific polysaccharides do not. Also,
in the presence of 0.9% salt, antigen antibody Coulomb forces, unless you mean merely ionization, could scarcely play a large
part.

I am sorry to have to be so discouraging toward a very sincere and painstaking effort to make progress. You will remember
that I said nothing about your paper until you drove us into a corner and forced me to. I have the distinct feeling that
even the excellent mathematical treatment you have given other reactions is a distinct danger in its very exactions if the
data used do not fall into the same rigorous category. I have attempted to obtain data on the kinetics of immune reactions,
but have only published the crude measurements with Kabat and a few slightly less crude measurements with Treffers and Xaver(?)
in the Ea0horse anti-Na system, drawing only the conclusion that the main reaction is faster than had been supposed. Nor
have I found any convincing data in the literature. The problem is rendered immeasurably more difficulty by the established
heterogeneity of antibody.

Hoping you do not mind this forthright expression of opinion and trusting that it will encourage you to think up more rigid
experiments along the same lines, and with all good wishes,